launcher.c - platform/external/python/setuptools - Git at Google

 /*  Setuptools Script Launcher for Windows

     This is a stub executable for Windows that functions somewhat like
     Effbot's "exemaker", in that it runs a script with the same name but
     a .py extension, using information from a #! line.  It differs in that
     it spawns the actual Python executable, rather than attempting to
     hook into the Python DLL.  This means that the script will run with
     sys.executable set to the Python executable, where exemaker ends up with
     sys.executable pointing to itself.  (Which means it won't work if you try
     to run another Python process using sys.executable.)

     To build/rebuild with mingw32, do this in the setuptools project directory:

        gcc -DGUI=0           -mno-cygwin -O -s -o setuptools/cli.exe launcher.c
        gcc -DGUI=1 -mwindows -mno-cygwin -O -s -o setuptools/gui.exe launcher.c

     To build for Windows RT, install both Visual Studio Express for Windows 8
     and for Windows Desktop (both freeware), create "win32" application using
     "Windows Desktop" version, create new "ARM" target via
     "Configuration Manager" menu and modify ".vcxproj" file by adding
     "<WindowsSDKDesktopARMSupport>true</WindowsSDKDesktopARMSupport>" tag
     as child of "PropertyGroup" tags that has "Debug|ARM" and "Release|ARM"
     properties.

     It links to msvcrt.dll, but this shouldn't be a problem since it doesn't
     actually run Python in the same process.  Note that using 'exec' instead
     of 'spawn' doesn't work, because on Windows this leads to the Python
     executable running in the *background*, attached to the same console
     window, meaning you get a command prompt back *before* Python even finishes
     starting.  So, we have to use spawnv() and wait for Python to exit before
     continuing.  :(
 */

 #include <stdlib.h>
 #include <stdio.h>
 #include <string.h>
 #include <windows.h>
 #include <tchar.h>
 #include <fcntl.h>

 int child_pid=0;

 int fail(char *format, char *data) {
     /* Print error message to stderr and return 2 */
     fprintf(stderr, format, data);
     return 2;
 }

 char *quoted(char *data) {
     int i, ln = strlen(data), nb;

     /* We allocate twice as much space as needed to deal with worse-case
        of having to escape everything. */
     char *result = calloc(ln*2+3, sizeof(char));
     char *presult = result;

     *presult++ = '"';
     for (nb=0, i=0; i < ln; i++)
       {
         if (data[i] == '\\')
           nb += 1;
         else if (data[i] == '"')
           {
             for (; nb > 0; nb--)
               *presult++ = '\\';
             *presult++ = '\\';
           }
         else
           nb = 0;
         *presult++ = data[i];
       }

     for (; nb > 0; nb--)        /* Deal w trailing slashes */
       *presult++ = '\\';

     *presult++ = '"';
     *presult++ = 0;
     return result;
 }


 char *loadable_exe(char *exename) {
     /* HINSTANCE hPython;  DLL handle for python executable */
     char *result;

     /* hPython = LoadLibraryEx(exename, NULL, LOAD_WITH_ALTERED_SEARCH_PATH);
     if (!hPython) return NULL; */

     /* Return the absolute filename for spawnv */
     result = calloc(MAX_PATH, sizeof(char));
     strncpy(result, exename, MAX_PATH);
     /*if (result) GetModuleFileNameA(hPython, result, MAX_PATH);

     FreeLibrary(hPython); */
     return result;
 }


 char *find_exe(char *exename, char *script) {
     char drive[_MAX_DRIVE], dir[_MAX_DIR], fname[_MAX_FNAME], ext[_MAX_EXT];
     char path[_MAX_PATH], c, *result;

     /* convert slashes to backslashes for uniform search below */
     result = exename;
     while (c = *result++) if (c=='/') result[-1] = '\\';

     _splitpath(exename, drive, dir, fname, ext);
     if (drive[0] || dir[0]=='\\') {
         return loadable_exe(exename);   /* absolute path, use directly */
     }
     /* Use the script's parent directory, which should be the Python home
        (This should only be used for bdist_wininst-installed scripts, because
         easy_install-ed scripts use the absolute path to python[w].exe
     */
     _splitpath(script, drive, dir, fname, ext);
     result = dir + strlen(dir) -1;
     if (*result == '\\') result--;
     while (*result != '\\' && result>=dir) *result-- = 0;
     _makepath(path, drive, dir, exename, NULL);
     return loadable_exe(path);
 }


 char **parse_argv(char *cmdline, int *argc)
 {
     /* Parse a command line in-place using MS C rules */

     char **result = calloc(strlen(cmdline), sizeof(char *));
     char *output = cmdline;
     char c;
     int nb = 0;
     int iq = 0;
     *argc = 0;

     result[0] = output;
     while (isspace(*cmdline)) cmdline++;   /* skip leading spaces */

     do {
         c = *cmdline++;
         if (!c || (isspace(c) && !iq)) {
             while (nb) {*output++ = '\\'; nb--; }
             *output++ = 0;
             result[++*argc] = output;
             if (!c) return result;
             while (isspace(*cmdline)) cmdline++;  /* skip leading spaces */
             if (!*cmdline) return result;  /* avoid empty arg if trailing ws */
             continue;
         }
         if (c == '\\')
             ++nb;   /* count \'s */
         else {
             if (c == '"') {
                 if (!(nb & 1)) { iq = !iq; c = 0; }  /* skip " unless odd # of \ */
                 nb = nb >> 1;   /* cut \'s in half */
             }
             while (nb) {*output++ = '\\'; nb--; }
             if (c) *output++ = c;
         }
     } while (1);
 }

 void pass_control_to_child(DWORD control_type) {
     /*
      * distribute-issue207
      * passes the control event to child process (Python)
      */
     if (!child_pid) {
         return;
     }
     GenerateConsoleCtrlEvent(child_pid,0);
 }

 BOOL control_handler(DWORD control_type) {
     /*
      * distribute-issue207
      * control event handler callback function
      */
     switch (control_type) {
         case CTRL_C_EVENT:
             pass_control_to_child(0);
             break;
     }
     return TRUE;
 }

 int create_and_wait_for_subprocess(char* command) {
     /*
      * distribute-issue207
      * launches child process (Python)
      */
     DWORD return_value = 0;
     LPSTR commandline = command;
     STARTUPINFOA s_info;
     PROCESS_INFORMATION p_info;
     ZeroMemory(&p_info, sizeof(p_info));
     ZeroMemory(&s_info, sizeof(s_info));
     s_info.cb = sizeof(STARTUPINFO);
     // set-up control handler callback funciotn
     SetConsoleCtrlHandler((PHANDLER_ROUTINE) control_handler, TRUE);
     if (!CreateProcessA(NULL, commandline, NULL, NULL, TRUE, 0, NULL, NULL, &s_info, &p_info)) {
         fprintf(stderr, "failed to create process.\n");
         return 0;
     }
     child_pid = p_info.dwProcessId;
     // wait for Python to exit
     WaitForSingleObject(p_info.hProcess, INFINITE);
     if (!GetExitCodeProcess(p_info.hProcess, &return_value)) {
         fprintf(stderr, "failed to get exit code from process.\n");
         return 0;
     }
     return return_value;
 }

 char* join_executable_and_args(char *executable, char **args, int argc)
 {
     /*
      * distribute-issue207
      * CreateProcess needs a long string of the executable and command-line arguments,
      * so we need to convert it from the args that was built
      */
     int len,counter;
     char* cmdline;

     len=strlen(executable)+2;
     for (counter=1; counter<argc; counter++) {
         len+=strlen(args[counter])+1;
     }

     cmdline = (char*)calloc(len, sizeof(char));
     sprintf(cmdline, "%s", executable);
     len=strlen(executable);
     for (counter=1; counter<argc; counter++) {
         sprintf(cmdline+len, " %s", args[counter]);
         len+=strlen(args[counter])+1;
     }
     return cmdline;
 }

 int run(int argc, char **argv, int is_gui) {

     char python[256];   /* python executable's filename*/
     char *pyopt;        /* Python option */
     char script[256];   /* the script's filename */

     int scriptf;        /* file descriptor for script file */

     char **newargs, **newargsp, **parsedargs; /* argument array for exec */
     char *ptr, *end;    /* working pointers for string manipulation */
     char *cmdline;
     int i, parsedargc;              /* loop counter */

     /* compute script name from our .exe name*/
     GetModuleFileNameA(NULL, script, sizeof(script));
     end = script + strlen(script);
     while( end>script && *end != '.')
         *end-- = '\0';
     *end-- = '\0';
     strcat(script, (GUI ? "-script.pyw" : "-script.py"));

     /* figure out the target python executable */

     scriptf = open(script, O_RDONLY);
     if (scriptf == -1) {
         return fail("Cannot open %s\n", script);
     }
     end = python + read(scriptf, python, sizeof(python));
     close(scriptf);

     ptr = python-1;
     while(++ptr < end && *ptr && *ptr!='\n' && *ptr!='\r') {;}

     *ptr-- = '\0';

     if (strncmp(python, "#!", 2)) {
         /* default to python.exe if no #! header */
         strcpy(python, "#!python.exe");
     }

     parsedargs = parse_argv(python+2, &parsedargc);

     /* Using spawnv() can fail strangely if you e.g. find the Cygwin
        Python, so we'll make sure Windows can find and load it */

     ptr = find_exe(parsedargs[0], script);
     if (!ptr) {
         return fail("Cannot find Python executable %s\n", parsedargs[0]);
     }

     /* printf("Python executable: %s\n", ptr); */

     /* Argument array needs to be
        parsedargc + argc, plus 1 for null sentinel */

     newargs = (char **)calloc(parsedargc + argc + 1, sizeof(char *));
     newargsp = newargs;

     *newargsp++ = quoted(ptr);
     for (i = 1; i<parsedargc; i++) *newargsp++ = quoted(parsedargs[i]);

     *newargsp++ = quoted(script);
     for (i = 1; i < argc; i++)     *newargsp++ = quoted(argv[i]);

     *newargsp++ = NULL;

     /* printf("args 0: %s\nargs 1: %s\n", newargs[0], newargs[1]); */

     if (is_gui) {
         /* Use exec, we don't need to wait for the GUI to finish */
         execv(ptr, (const char * const *)(newargs));
         return fail("Could not exec %s", ptr);   /* shouldn't get here! */
     }

     /*
      * distribute-issue207: using CreateProcessA instead of spawnv
      */
     cmdline = join_executable_and_args(ptr, newargs, parsedargc + argc);
     return create_and_wait_for_subprocess(cmdline);
 }

 int WINAPI WinMain(HINSTANCE hI, HINSTANCE hP, LPSTR lpCmd, int nShow) {
     return run(__argc, __argv, GUI);
 }

 int main(int argc, char** argv) {
     return run(argc, argv, GUI);
 }
	/* Setuptools Script Launcher for Windows

	This is a stub executable for Windows that functions somewhat like
	Effbot's "exemaker", in that it runs a script with the same name but
	a .py extension, using information from a #! line. It differs in that
	it spawns the actual Python executable, rather than attempting to
	hook into the Python DLL. This means that the script will run with
	sys.executable set to the Python executable, where exemaker ends up with
	sys.executable pointing to itself. (Which means it won't work if you try
	to run another Python process using sys.executable.)

	To build/rebuild with mingw32, do this in the setuptools project directory:

	gcc -DGUI=0 -mno-cygwin -O -s -o setuptools/cli.exe launcher.c
	gcc -DGUI=1 -mwindows -mno-cygwin -O -s -o setuptools/gui.exe launcher.c

	To build for Windows RT, install both Visual Studio Express for Windows 8
	and for Windows Desktop (both freeware), create "win32" application using
	"Windows Desktop" version, create new "ARM" target via
	"Configuration Manager" menu and modify ".vcxproj" file by adding
	"<WindowsSDKDesktopARMSupport>true</WindowsSDKDesktopARMSupport>" tag
	as child of "PropertyGroup" tags that has "Debug\|ARM" and "Release\|ARM"
	properties.

	It links to msvcrt.dll, but this shouldn't be a problem since it doesn't
	actually run Python in the same process. Note that using 'exec' instead
	of 'spawn' doesn't work, because on Windows this leads to the Python
	executable running in the background, attached to the same console
	window, meaning you get a command prompt back before Python even finishes
	starting. So, we have to use spawnv() and wait for Python to exit before
	continuing. :(
	*/

	#include <stdlib.h>
	#include <stdio.h>
	#include <string.h>
	#include <windows.h>
	#include <tchar.h>
	#include <fcntl.h>

	int child_pid=0;

	int fail(char format, char data) {
	/* Print error message to stderr and return 2 */
	fprintf(stderr, format, data);
	return 2;
	}

	char quoted(char data) {
	int i, ln = strlen(data), nb;

	/* We allocate twice as much space as needed to deal with worse-case
	of having to escape everything. */
	char result = calloc(ln2+3, sizeof(char));
	char *presult = result;

	*presult++ = '"';
	for (nb=0, i=0; i < ln; i++)
	{
	if (data[i] == '\\')
	nb += 1;
	else if (data[i] == '"')
	{
	for (; nb > 0; nb--)
	*presult++ = '\\';
	*presult++ = '\\';
	}
	else
	nb = 0;
	*presult++ = data[i];
	}

	for (; nb > 0; nb--) /* Deal w trailing slashes */
	*presult++ = '\\';

	*presult++ = '"';
	*presult++ = 0;
	return result;
	}










	char loadable_exe(char exename) {
	/* HINSTANCE hPython; DLL handle for python executable */
	char *result;

	/* hPython = LoadLibraryEx(exename, NULL, LOAD_WITH_ALTERED_SEARCH_PATH);
	if (!hPython) return NULL; */

	/* Return the absolute filename for spawnv */
	result = calloc(MAX_PATH, sizeof(char));
	strncpy(result, exename, MAX_PATH);
	/*if (result) GetModuleFileNameA(hPython, result, MAX_PATH);

	FreeLibrary(hPython); */
	return result;
	}


	char find_exe(char exename, char *script) {
	char drive[_MAX_DRIVE], dir[_MAX_DIR], fname[_MAX_FNAME], ext[_MAX_EXT];
	char path[_MAX_PATH], c, *result;

	/* convert slashes to backslashes for uniform search below */
	result = exename;
	while (c = *result++) if (c=='/') result[-1] = '\\';

	_splitpath(exename, drive, dir, fname, ext);
	if (drive[0] \|\| dir[0]=='\\') {
	return loadable_exe(exename); /* absolute path, use directly */
	}
	/* Use the script's parent directory, which should be the Python home
	(This should only be used for bdist_wininst-installed scripts, because
	easy_install-ed scripts use the absolute path to python[w].exe
	*/
	_splitpath(script, drive, dir, fname, ext);
	result = dir + strlen(dir) -1;
	if (*result == '\\') result--;
	while (result != '\\' && result>=dir) result-- = 0;
	_makepath(path, drive, dir, exename, NULL);
	return loadable_exe(path);
	}


	char *parse_argv(char cmdline, int *argc)
	{
	/* Parse a command line in-place using MS C rules */

	char *result = calloc(strlen(cmdline), sizeof(char ));
	char *output = cmdline;
	char c;
	int nb = 0;
	int iq = 0;
	*argc = 0;

	result[0] = output;
	while (isspace(cmdline)) cmdline++; / skip leading spaces */

	do {
	c = *cmdline++;
	if (!c \|\| (isspace(c) && !iq)) {
	while (nb) {*output++ = '\\'; nb--; }
	*output++ = 0;
	result[++*argc] = output;
	if (!c) return result;
	while (isspace(cmdline)) cmdline++; / skip leading spaces */
	if (!cmdline) return result; / avoid empty arg if trailing ws */
	continue;
	}
	if (c == '\\')
	++nb; /* count \'s */
	else {
	if (c == '"') {
	if (!(nb & 1)) { iq = !iq; c = 0; } /* skip " unless odd # of \ */
	nb = nb >> 1; /* cut \'s in half */
	}
	while (nb) {*output++ = '\\'; nb--; }
	if (c) *output++ = c;
	}
	} while (1);
	}

	void pass_control_to_child(DWORD control_type) {
	/*
	* distribute-issue207
	* passes the control event to child process (Python)
	*/
	if (!child_pid) {
	return;
	}
	GenerateConsoleCtrlEvent(child_pid,0);
	}

	BOOL control_handler(DWORD control_type) {
	/*
	* distribute-issue207
	* control event handler callback function
	*/
	switch (control_type) {
	case CTRL_C_EVENT:
	pass_control_to_child(0);
	break;
	}
	return TRUE;
	}

	int create_and_wait_for_subprocess(char* command) {
	/*
	* distribute-issue207
	* launches child process (Python)
	*/
	DWORD return_value = 0;
	LPSTR commandline = command;
	STARTUPINFOA s_info;
	PROCESS_INFORMATION p_info;
	ZeroMemory(&p_info, sizeof(p_info));
	ZeroMemory(&s_info, sizeof(s_info));
	s_info.cb = sizeof(STARTUPINFO);
	// set-up control handler callback funciotn
	SetConsoleCtrlHandler((PHANDLER_ROUTINE) control_handler, TRUE);
	if (!CreateProcessA(NULL, commandline, NULL, NULL, TRUE, 0, NULL, NULL, &s_info, &p_info)) {
	fprintf(stderr, "failed to create process.\n");
	return 0;
	}
	child_pid = p_info.dwProcessId;
	// wait for Python to exit
	WaitForSingleObject(p_info.hProcess, INFINITE);
	if (!GetExitCodeProcess(p_info.hProcess, &return_value)) {
	fprintf(stderr, "failed to get exit code from process.\n");
	return 0;
	}
	return return_value;
	}

	char* join_executable_and_args(char executable, char *args, int argc)
	{
	/*
	* distribute-issue207
	* CreateProcess needs a long string of the executable and command-line arguments,
	* so we need to convert it from the args that was built
	*/
	int len,counter;
	char* cmdline;

	len=strlen(executable)+2;
	for (counter=1; counter<argc; counter++) {
	len+=strlen(args[counter])+1;
	}

	cmdline = (char*)calloc(len, sizeof(char));
	sprintf(cmdline, "%s", executable);
	len=strlen(executable);
	for (counter=1; counter<argc; counter++) {
	sprintf(cmdline+len, " %s", args[counter]);
	len+=strlen(args[counter])+1;
	}
	return cmdline;
	}

	int run(int argc, char **argv, int is_gui) {

	char python[256]; /* python executable's filename*/
	char pyopt; / Python option */
	char script[256]; /* the script's filename */

	int scriptf; /* file descriptor for script file */

	char newargs, newargsp, *parsedargs; / argument array for exec */
	char ptr, end; /* working pointers for string manipulation */
	char *cmdline;
	int i, parsedargc; /* loop counter */

	/* compute script name from our .exe name*/
	GetModuleFileNameA(NULL, script, sizeof(script));
	end = script + strlen(script);
	while( end>script && *end != '.')
	*end-- = '\0';
	*end-- = '\0';
	strcat(script, (GUI ? "-script.pyw" : "-script.py"));

	/* figure out the target python executable */

	scriptf = open(script, O_RDONLY);
	if (scriptf == -1) {
	return fail("Cannot open %s\n", script);
	}
	end = python + read(scriptf, python, sizeof(python));
	close(scriptf);

	ptr = python-1;
	while(++ptr < end && ptr && ptr!='\n' && *ptr!='\r') {;}

	*ptr-- = '\0';

	if (strncmp(python, "#!", 2)) {
	/* default to python.exe if no #! header */
	strcpy(python, "#!python.exe");
	}

	parsedargs = parse_argv(python+2, &parsedargc);

	/* Using spawnv() can fail strangely if you e.g. find the Cygwin
	Python, so we'll make sure Windows can find and load it */

	ptr = find_exe(parsedargs[0], script);
	if (!ptr) {
	return fail("Cannot find Python executable %s\n", parsedargs[0]);
	}

	/* printf("Python executable: %s\n", ptr); */

	/* Argument array needs to be
	parsedargc + argc, plus 1 for null sentinel */

	newargs = (char *)calloc(parsedargc + argc + 1, sizeof(char ));
	newargsp = newargs;

	*newargsp++ = quoted(ptr);
	for (i = 1; i<parsedargc; i++) *newargsp++ = quoted(parsedargs[i]);

	*newargsp++ = quoted(script);
	for (i = 1; i < argc; i++) *newargsp++ = quoted(argv[i]);

	*newargsp++ = NULL;

	/* printf("args 0: %s\nargs 1: %s\n", newargs[0], newargs[1]); */

	if (is_gui) {
	/* Use exec, we don't need to wait for the GUI to finish */
	execv(ptr, (const char * const *)(newargs));
	return fail("Could not exec %s", ptr); /* shouldn't get here! */
	}

	/*
	* distribute-issue207: using CreateProcessA instead of spawnv
	*/
	cmdline = join_executable_and_args(ptr, newargs, parsedargc + argc);
	return create_and_wait_for_subprocess(cmdline);
	}

	int WINAPI WinMain(HINSTANCE hI, HINSTANCE hP, LPSTR lpCmd, int nShow) {
	return run(__argc, __argv, GUI);
	}

	int main(int argc, char** argv) {
	return run(argc, argv, GUI);
	}